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| author | Prefetch | 2024-07-21 17:52:57 +0200 |
|---|---|---|
| committer | Prefetch | 2024-07-21 17:52:57 +0200 |
| commit | 96447d884e02012a4ed9146dc6c00d186a201038 (patch) | |
| tree | de03b43cc8e4b64a5aff6f7aa69c06f2085020c9 /source/know/concept/euler-equations | |
| parent | 075683cdf4588fe16f41d9f7b46b9720b42b2553 (diff) | |
Improve knowledge base
Diffstat (limited to 'source/know/concept/euler-equations')
| -rw-r--r-- | source/know/concept/euler-equations/index.md | 2 |
1 files changed, 1 insertions, 1 deletions
diff --git a/source/know/concept/euler-equations/index.md b/source/know/concept/euler-equations/index.md index 2654d2b..415e2f1 100644 --- a/source/know/concept/euler-equations/index.md +++ b/source/know/concept/euler-equations/index.md @@ -146,7 +146,7 @@ When the fluid gets compressed in a certain location, thermodynamics states that the pressure, temperature and/or entropy must increase there. For simplicity, let us assume an *isothermal* and *isentropic* fluid, such that only $$p$$ is affected by compression, and the -[fundamental thermodynamic relation](/know/concept/fundamental-thermodynamic-relation/) +[fundamental thermodynamic relation](/know/concept/fundamental-relation-of-thermodynamics/) reduces to $$\dd{E} = - p \dd{V}$$. Then the pressure is given by a thermodynamic equation of state $$p(\rho, T)$$, |